TW201003278A - Image capture device - Google Patents

Abstract

In a digital camera, a focus lens is moved at a low speed between a timing at which a shutter key is half pressed and a timing at which the shutter key is fully pressed to detect a focused position. When the shutter key is fully pressed by a user before the focus lens reaches a focused position, the focus lens is moved at a higher speed than that of a case in which the shutter key is half pressed, and a focused position is detected. Thereby, even when the shutter key is fully pressed by a user before the focus lens reaches the focused position, the digital camera can realize focusing with less delay in capturing.

Description

201003278 VI. Description of the Invention: [Technical Field] The present invention relates to a photographing apparatus and an autofocus control method which are provided with an autofocus function which can be used for a digital camera. [Prior Art] A digital still camera (hereinafter referred to as a digital camera) having an autofocus function of a contrast detection type AF (Auto Focus) method has been known. The digital camera with autofocus function, when the shutter button is pressed halfway, T ′ performs the pre-processing required for the image data of the subject image imaged by the lens unit, and uses the high-pass filter to extract the high-frequency component. In order to maximize the high-frequency component of the data, it is possible to image at the optimum focus position by driving the lens unit and adjusting the focus position. In the detection method of detecting the focus position at which the high-frequency component becomes the maximum ,, the lens unit is driven to change the focus position from infinity to the front, and the necessary interval is set therebetween to perform the above processing on the image data and determine the high-frequency component. The biggest problem. Then, finally, the lens unit is driven to the focus position where the high-frequency I component becomes the maximum ,, and by pressing the shutter button in this state, the image data of the subject image taken at the optimum focus position is recorded. In addition, even if the shutter button is pressed all the way to the end, since the half-press state is always the passing point, the focus adjustment is started at the half-press state through the dot, and the recording is taken at the time when the focus position becomes the best. Image data of the subject image. However, in the past, a digital camera equipped with the AF--4-03 03278 function of the contrast detection type AF method requires image data processing and lens unit drive control before determining the appropriate lens position for focusing on the object as described above. . Therefore, 'the camera user needs time to focus, press the shutter button, and shoot when the subject is captured in the window. As a result, there is a problem of missing the shutter opportunity' or when the shutter button is pressed all the way. Also, since the recorded image is the image of the moment of the best focus, there is a problem of recording the subject image that is slightly behind the time the photographer wants to take the image. In order to solve the problem as described above, a photographing apparatus is proposed (for example, refer to Japanese Laid-Open Patent Publication No. 2004-085697 (Patent Document 1)), and an image of a subject is photographed and recorded without missing a shutter opportunity or The time is behind. In the photographing apparatus, at the time of photographing, 〇n and Off of the interrupt processing flag are discriminated. When the shutter button is "half-pressed", set the interrupt processing flag to On' and judge whether there is a "full press" signal from the shutter button. In the case where the shutter button is "fully pressed" once, it is judged as Yes. Therefore, the CCD outputs the photographic material for exposure, and the photographic data for exposure is separated into a luminance signal and a color difference signal by a color processor. The CPU writes the separated luminance signal and color difference signal to the RAM. Therefore, the image data at the time when the shutter button is fully pressed before the focus operation is completed is stored in the RAM. Further, in the drive control of the lens unit, if the driving speed of the focus lens is made faster, on the one hand, there is an advantage that the detection time of the focus position can be shortened, and on the other hand, there is a disadvantage that the focus lens is not easily stopped at the focus position. According to this point of view, there is a technique (for example, Japanese Laid-Open Patent Publication No. 2002-28 70 1 2 (Patent Document 2)), which changes the driving speed of the focus lens and detects the in-focus position by responding to the situation in 201003278. To reconcile the advantages and disadvantages. Patent Document 2 discloses a technique in which, when the release button (shutter button) is pressed halfway, 'first, the focus lens is driven at a low speed, and then the difference between the focus lens and the focus position is measured, and if the measurement is smaller than the predetermined size, The focus lens is driven at a low speed, and if it is larger than the predetermined size, the focus lens is shortened to the time of focusing by driving the focus lens at a high speed. In the photographing apparatus disclosed in Patent Document 1, although the image data at the time when the shutter button is fully pressed before the focus operation is completed is stored in the RAM, the photographed object can be photographed and recorded without missing the shutter opportunity or generating The time is backward, but the AF processing is omitted when the shutter button is pressed all the way, so there is a problem of blurred focus. That is, if a lens having a relatively deep depth of field is not used, there is a problem that the captured image is blurred. Further, in the photographing apparatus which drives the focus lens at a low speed and detects the focus as disclosed in Patent Document 2, in the case as described above, in particular, the timing of the full press of the shutter button and the timing of the focus and shooting are delayed. Big, so it is possible to miss the shutter opportunity. However, conversely, when the driving speed of the focus lens is made uniform, as described above, there is a problem that it is difficult to accurately stop the focusing lens at the in-focus position. The present invention has been made to solve the problems of the prior art, and it is an object of the invention to provide a photographing apparatus and an autofocus control method which can image an image with excellent focus without missing a shutter opportunity or a time lag. SUMMARY OF THE INVENTION In one aspect, 201003278 provides a photographing apparatus having a structure in which a contrast AF means is used to compare a contrast image of a photographed image sequentially obtained by a photographing element while moving a focus lens, and to detect based on the comparison result. The focus lens position of the focus lens; the shutter button capable of half-pressing operation and full-press operation; the first determining means determining whether the shutter button has been pressed halfway; and the second determining means determining whether the shutter button has been fully pressed Operation; the first AF control means 'in the case of determining that the shutter button has been pressed halfway by the first determining means, performing the first contrast AF processing using the contrast AF means; and the first AF control means 'utilizing the second The judging means judges that the shutter button has been fully pressed. 'The second contrast AF processing in which the processing speed is faster than the first-contrast AF processing is performed using the contrast AF means. Further, in another aspect, an imaging apparatus is provided which is configured to have an imaging means for capturing an image of an object to be photographed, an automatic exposure means for automatically setting an appropriate exposure of the photographing means, and a half-press operation and a full press. The shutter button for operation; the first determining means 'determines whether the shutter button has been pressed halfway; the second determining means determines whether the shutter button has been fully pressed; the first AE control means 'determines by using the first determining means The first AE processing is performed using the automatic exposure means when the shutter button is operated halfway; and the second AE control means 'uses the automatic exposure by using the second determining means to judge that the shutter button has been fully pressed The means performs a second AE process that is simpler than the first AE process. Further, in another aspect, an imaging apparatus is provided which is provided with an imaging means for capturing an image of a subject -7-201003278, and an automatic white balance means for automatically setting an appropriate white balance of the photographing means; The shutter button for performing the half-press operation and the full-press operation: the first determining means determines whether the shutter button has been pressed halfway; the second determining means determines whether the shutter button has been fully pressed; the first automatic white balance control means And determining, by the first determining means, that the shutter button has been pressed halfway, performing the first automatic white balance processing using the automatic white balance means; and the second automatic white balance control means, determining by using the second determining means When the shutter button is fully operated, the second automatic white balance processing that is simpler than the first automatic white balance processing is performed using the automatic white balance means. Further, in another aspect, a photographing apparatus is provided which is provided with: an imaging means for capturing an image of a subject; a flash charging means for performing charging of a flash to a flash unit; and a flash light emitting means for using a flash charging means The charged flash device causes the flash to emit light; the shutter button; the first determining means determines whether the shutter button has been operated; and the photographing control means determines whether the shutter button has been operated by using the first determining means, whether or not the shutter button is used The flash charging means is performing charging of the flash, and the photographing means is used to perform the photographing processing. Further, in another aspect, an imaging apparatus is provided which is provided with an imaging means for capturing an image of an object to be photographed, an automatic exposure means for automatically setting an appropriate exposure of the photographing means, a shutter button, and a first determining means. Determining whether the shutter button has been operated; and the photographing control means, in the case of using the first judging means to judge that the shutter button has been operated, the AE processing is being performed regardless of whether or not the auto exposure means is used. deal with. Further, in another aspect, a photographing apparatus is provided which is provided with: an imaging means for capturing an image of an object; an automatic white balance means for automatically setting an appropriate white balance of the photographing means; a shutter button; a first judgment Means, determining whether the shutter button has been operated; and the photographing control means, determining that the shutter button has been operated by the first determining means, whether the automatic white balance processing is being executed by the automatic white balance means, using the photographing means Perform photography processing. Moreover, in another aspect, an autofocus control method is provided, including: a judging step of determining whether a shutter button that can be pressed half-pressed and fully pressed has been fully pressed; and an AF control step judging by using the judging step When the shutter button is fully operated, the second contrast AF processing is performed at a processing speed faster than the first contrast AF processing performed when the shutter button has been pressed halfway. Further, in another form, a program is provided for executing a process including the following processing on a computer of the photographing apparatus: a first judging process for judging whether a shutter button that can be half-pressed and fully pressed has been half-pressed. a second determination process of determining whether the shutter button has been fully pressed; performing a process of first contrast AF processing by using the first determination process to determine that the shutter button has been pressed halfway; and utilizing the second determination In the case where it is judged that the shutter button has been fully pressed, the processing of the second contrast AF processing which is faster than the first contrast AF processing is executed. [Embodiment] Hereinafter, preferred embodiments of the present invention will be described in detail. First, the configuration of the digital camera 1 according to the first embodiment and the second embodiment of the present invention will be described. (First Embodiment) As shown in Fig. 1, the digital camera 1 is equipped with an autofocus function (AF (Auto Focus) function), and is converted by the lens optical system 2, the imaging device 3, and the A/D (Analog/Digital). The image processing unit 5, the release operation unit 6, the camera operation unit 7, the display unit 8, the memory group 9, the control unit 1, the lens drive motor unit 1 1 and the AF control unit 12 are configured. The lens optical system 2 includes a photographing lens, a focusing lens that performs focusing, an aperture mechanism that adjusts the amount of light incident on the imaging element 3, and the like. The optical image (image of the subject) of the subject condensed via the lens optical system 2 is imaged on the photographic element 3. The photographic element 3 is, for example, a CCD (Charge Coupled Device) or the like, and converts the image of the subject imaged by the lens optical system 2 into a charge corresponding to the magnitude of the brightness and stores it. Further, the photographing element 3 is subjected to scan driving by a timing generator or a V (Vertical) driver not shown, and outputs the stored electric charge as a photographing signal (analog signal). The photographic signal output from the photographic element 3 is removed by a double correlation sampling circuit (CDS) circuit (not shown), and amplified by an AGC (Automatic Gain Control) amplifier (not shown), using A/ The D converter 4 converts into a digital signal. The video processing unit 5 includes a color processing circuit, a DMA (Direct Memory -10-201003278 Body Access) controller, and the like. The video processing unit 5 performs color processing on the digital image pickup signal supplied from the A/D converter 4 by a color processing circuit to generate a luminance signal Y and color difference signals Cb and Cr. Further, the image processing unit 5 DMA-transmits the luminance signal Y and the color difference signals Cb and Cr generated by the color processing circuit to the DRAM (Dynamic Random Access Memory) of the memory group 9 by using the DMA controller. Further, the luminance signal Y generated by the color processing circuit is also supplied to the AF control unit 12. The release operation unit 6 includes a half-press detection unit 6-1 and a full-press detection unit 6-2'. When the user presses the shutter button and the half-press detection unit 6-1 detects that the predetermined intermediate point is reached, it is regarded as half. Press and the signal indicating the half press (half press detection signal) is supplied to the control unit 10 . On the other hand, when the full-press detecting unit 6-2 detects that the shutter button has reached the lowest point, it has been fully pressed, and the signal indicating the full press (full-press detection signal) is supplied to the control unit 10. The camera operation unit 7 includes various operation keys such as a power key, a mode switching key for switching between the shooting mode and the playback mode, and supplies a detection signal in response to the key operation to the control unit 10. The display unit 8 is constituted by, for example, a liquid crystal display (LCD) or the like, and displays a through image, a captured image, a broadcast image, and the like based on an image signal supplied from the control unit 1 . A DRAM, a VRAM (Video Random Access Memory), an SD (Secure Digital) memory card, or the like is provided in the memory group 9'. The control unit 10 is configured by, for example, a CPU, a ROM (Read Only Memory), and a RAM (Random Access Memory). The CPU controls the 201003278 actor of each part of the digital camera 1 by appropriately executing various programs stored in the ROM or the like. In addition, the RAM system is used as a working memory user when the CPU executes the program. The control unit 10 reads out the luminance signal Y and the color difference signals Cb and Cr DMA transmitted from the DMA controller from the DRAM and writes them into the VRAM. Further, the control unit 10 periodically reads the luminance signal Y and the color difference signals Cb and Cr from the VRAM, generates a video signal, and supplies the video signal to the display unit 8. Therefore, the through image is displayed on the display unit 8. The lens drive motor unit 11 is configured by, for example, a stepping motor or the like, and moves the focus lens toward the optical axis direction by performing stepwise driving based on the step drive command or the motor forward/reverse command supplied from the AF control unit 12. By. The AF control unit 12 performs stepwise driving on the lens driving motor unit 根据 based on the luminance signal supplied from the image processing unit 5, and adjusts the position of the focus lens in accordance with a predetermined step unit to perform focusing. Fig. 2 is a block diagram showing a configuration example of an AF control unit. As shown in Fig. 2, the AF control unit 1 2 includes a focus evaluation unit 1 1 1 , a latest evaluation V 値 storage unit 122, a front evaluation 値 storage unit 123, a peak 値 detection unit 124, and a focus motor control unit 12 5 composition. The focus evaluation unit calculation unit 121 includes a high-pass filter, an integrator, and the like, and extracts a high-frequency component of the luminance signal Y supplied from the image processing unit 5 using a high-pass filter. Then, the focus evaluation unit calculation unit 121 integrates the high-frequency components of the luminance signal Y extracted by the high-pass filter with the integrator, and obtains the thus obtained integral 値 (indicating the contrast) to evaluate 値 as A F . -12- 201003278 The latest evaluation 値 storage unit 1 22 is the latest AF evaluation 値 (latest evaluation 値) A obtained by the focus evaluation 値 calculation unit 121, and the front evaluation 値 storage unit 1 2 3 is stored before One of the AF evaluations (pre-evaluation) B obtained by the processing. The peak 値 detection unit 1 24 compares the latest evaluation 値A stored in the latest evaluation 値 storage unit 1 22 with the anterior evaluation 値 B stored in the front evaluation 値 storage unit 1 2 3, and detects the AF evaluation based on the comparison result 値The peak 値, that is, the position at which the focus is detected. f Specifically, the result of the comparison is that the latest evaluation 値A is larger than the positive evaluation 値B, and it is judged that the AF evaluation 値尙 has not reached the peak 値, and the 尖 値 detection operation is continued, and the latest evaluation 値A ratio When the front evaluation 値B is small, it is judged that the front evaluation 値B is a spike 値, and the AF completion signal for which the focus is locked is supplied to the focus motor control unit 125 and the control unit 10 〇The focus motor control unit 1 2 5 is based on the release operation The full-press detection signal and the half-press detection signal supplied from the unit 6 control the rotation of the lens driving motor unit and the 11th. Specifically, when the supply of the half-press detection signal is received from the release operation unit 6, a pulse signal including a predetermined period of the step drive command and the motor forward rotation command is supplied to the lens drive motor unit 1 1, by the lens The drive motor unit 11 performs stepwise driving, and the focus lens is sequentially moved from the near point side toward the infinity side by a predetermined number of steps per unit period. Further, when the supply of the full-press detection signal is received from the release operation unit 6, the lens drive motor unit is improved by the pulse signal of the shorter -13-201003278 than the supply of the half-press detection signal. The "speed of 11" increases the number of steps the focus lens moves per unit period. In this way, the moving speed of the focus lens in the case where the shutter button is fully pressed can be made faster than the case of half-pressing. Further, in the case where the supply of the AF completion signal is received from the peak detecting unit 14 by the supply The pulse signal of the motor reversal command that reverses the direction of the command and the receipt of the full press signal or the half press signal is supplied, and the lens drive motor portion 11 is reversed to return the focus lens to the previous position. . In this way, set the focus lens to the focus position. Next, a specific operation of the digital camera having this configuration will be described. Figure 3 is a flow chart showing the contents of the specific operation of the digital camera. When the power of the digital camera 1 is turned on, the control unit 1 first performs necessary initial setting processing such as clearing of RAM, DRAM, VRAM, or setting of a built-in register. In the initial setting processing, the digital camera 1 is set to the through mode, and the through image is displayed on the display unit 8 (step P1). When the user presses the shutter button halfway and receives the half-press I. detection signal supply from the half-press detection unit 6-1 (step P2; Yes), the AF control unit 12 starts the auto-focus processing, first, the focus motor The control unit 1 2 5 controls the lens drive motor unit 11 to move the focus lens to the home position (step P3). Here, the starting position is made to be different depending on the shooting mode, the lens is moved to the closest position in the normal shooting mode, and the lens is moved to the infinity position in the close shooting mode. Next, the AF control unit 12 calculates the AF evaluation 根据 based on the luminance signal Y supplied from the image processing unit 5 by the focus evaluation 値 calculation unit 1 1 1 (step P4) -14 - 201003278. Then, the AF control unit 12 shifts the content of the latest evaluation 値 storage unit 122 to the front evaluation 値 storage unit 123 (step P5) 'writes the AF evaluation 算出 calculated in the processing of step P4 to the front evaluation 値 storage Part 123 (step P6). Next, the AF control unit 12 compares the latest evaluation 値A stored in the latest evaluation 値 storage unit 1 22 with the anterior evaluation 値B stored in the anterior evaluation 値 storage unit 123 by the spike detection unit 1 24 (step P7). In the case where the latest evaluation 値A is larger than the positive evaluation 値B (step P7; , Yes), the AF control unit 12 judges that the AF evaluation 値尙 has not reached the peak 値, and then determines whether the user fully presses the shutter button (step P8). ). Specifically, it is determined whether or not the supply of the full press detection signal is received from the full press detecting unit 6-2. As a result, when it is determined that the shutter button is not fully pressed (step P8; No), it is determined whether or not the half-press detection signal from the half-press detection unit 6-1 is still on, that is, whether the shutter button is still pressed halfway ( Step P9). In the case where the shutter button is still pressed halfway (step P9; Yes), the AF control unit 12 determines that the autofocus process is continued, and supplies the pulse signal of the period 2T to the lens from the poly L motor control unit 125. The motor unit 11 is driven to perform stepwise driving of the lens drive motor unit 11. Therefore, the focus lens moves only the distance a from the near point side toward the infinity side (step P 1 〇). Then, the AF control unit 12 returns to the processing of step P4. On the other hand, when the shutter button is not pressed halfway (step P9; N 〇), the A F control unit 1 2 judges that the autofocus processing is completed, returns to the processing of step P1, and waits for the shutter button to be pressed halfway. Further, in the processing of the step P8, it is judged that the shutter button is fully pressed ( -15 - 201003278, step P8; No). The AF control unit 12 determines that the user has instructed shooting, and the focus motor control unit 丨 25 will press the shutter halfway. In the state of the button, the pulse signal of the period T is supplied to the lens driving motor portion n. Therefore, the motor portion 1 1 is moved faster than the state in which the shutter button is pressed halfway. The driving J' focus lens is moved away from the near point side toward the infinity side only by 2a (step P11). Then, the AF control unit 12 returns to the result of the processing of the steps P4 to P11 after the step P4, and the latest evaluation 値/pre-evaluation 値B or less (step P7; N 〇), the AF control unit 1 2 The motor control unit 1 2 5 controls the lens drive motor unit 1 to rotate in the opposite direction when the shutter button is pressed halfway or fully, so that the focus lens is returned to the position. Therefore, the focus lens is set to the focus position. Further, the AF control unit 12 supplies the AF completion signal to the control unit 10. Then, the AF control unit 12 receives the supply of the AF completion signal by the control unit 1 〇 to confirm whether the user has fully pressed the shutter button (step. When the shutter button has been fully pressed (step P 1 2 ; Yes), sequentially I shadow processing (step P13) and recording processing (step P14), and in the case where the door is not fully pressed (step P12; No), the shutter button is fully pressed, and the wait P12 becomes Yes. Here, step P13 is explained. In the photographic processing and the processing of step P14, when the DMA controller performs the DMA transfer of the bright component Y of the frame component and the color difference signals Cb and cr from the DMA controller, the control unit 10 cuts off the path from the DMA controller to the DRAM. Then, by controlling the luminance signal Y and the color difference signal of a frame component from the DRAM and changing from the short lens speed range processing A to the upper direction, the P 12) line is pressed to the step. The letter is temporarily No. 10 Cb -16- 201003278, Cr reads the established unit each time and compresses 'and produces the image data of the specified format' and stores it in sequence on the SD memory card. Then, when the storage of the image data of one frame component is completed, the control unit 10 reconnects the path of the interruption. In this way, the digital camera 1 performs image capturing and storage. The above is the specific operation content performed by the digital camera 1. Next, the autofocus processing of steps P3 to P11 will be more specifically described by taking the case where the shutter button has been fully pressed before the focus is taken as an example. Figure 4 is a graph showing the relationship between the position of the focus lens and the AF evaluation 値. As shown in Fig. 4, when the user presses the shutter button halfway (step ; 3 ; Ye s ), the AF control unit 12 first moves the focus lens to the home position (step P4), and then, The drive from the near point side toward the infinity side is driven at a low speed per unit time a (step P10). Then, the processing of the step P10 is performed until the shutter button is fully pressed T = T4, during which the focus lens is advanced to 4a (search point). Then 'At T = T4, when the user presses the shutter button all the way (step P8; Yes), since the AF evaluation does not reach the peak 此 at this time (step P 7 ; Y es) 'AF control unit * 1 2 will focus The driving speed of the lens is accelerated to a speed of 2 a per unit time to start high-speed driving (step P11). Then, the processing of step P11 is repeated until T = T7 ' during this period, the focus lens is advanced to i 〇 a (search point). Next, at Τ = Τ7 ', it is confirmed that the AF evaluation 値 has decreased (step P7; No), and the AF control unit 12 judges that the AF evaluation 値 reaches a peak T at T = T6 ', causing the focus lens to return to 8a at a speed of 2 a per unit time. . Thus 'set the focus lens to the focus position. As described above, the digital camera 1' of the present embodiment moves the focus lens at a faster speed than when the shutter button is pressed halfway before the focus lens -17-201003278 reaches the focus position before the user has fully pressed the shutter button. And detect the focus position. Therefore, even if the user has pressed the shutter button all the time before the focus lens reaches the focus position, the digital camera 1 can make the time until the shooting less and focus. In the first embodiment, the low-speed mode AF and the high-speed mode AF are prepared in the AF of the comparative mode, as shown in the flowchart of FIG. 3, although the low-speed mode AF and the high-speed mode are switched in accordance with the half-press and full-press timing of the shutter button. AF' is made to make the amount of movement (step interval) of the focus lens of each frame smaller in the low speed mode AF, and to increase the amount of movement (step interval) of the focus lens of each frame in the high speed mode AF, However, the method of shortening the focus time in the low-speed mode AF and the high-speed mode AF is not limited to this method, and for example, there is a method of shortening the focus time as shown in the first to sixth modifications described later. Further, in the embodiment, it has been explained that the focus lens is stopped at the search (photographing) point (the boundary point between the steps), and the moving speed between the search points of the focus lens is made in the low speed mode AF and the high speed mode AF. An example of equal L, but in the case where the seek point does not stop the focus lens, the moving speed of the focus lens is made smaller in the low speed mode AF, and the moving speed of the focus lens is made larger in the high speed mode AF than in the low speed mode AF. As a result, an AF evaluation can be obtained at the same search point as the embodiment. Fig. 5 is a flow chart showing the AF operation of switching between the low speed mode AF and the high speed mode AF according to the half-press and full-press timing of the shutter button, and shows the first embodiment and the first to sixth A flow chart of the basic parts common to the variants. -18- 201003278 In the fifth diagram, when the power of the digital camera 1 is turned on, the control unit 1 first performs necessary initial setting processing such as clearing of RAM, DRAM, VRAM, or setting of a built-in register ( Step Q0). Then, the AE processing for the through image is performed with the focal length corresponding to the zoom 该 at that time, and the through image of the display unit 8 is displayed (step Q1). The control unit 1 〇 checks whether the shutter button has been pressed halfway, that is, whether the supply of the half-press detection signal is received from the half-press detection unit 6-1, and when the shutter button is pressed halfway, the process proceeds to step Q3, and if not, waits for the shutter. Half-press of the button (step Q2) 〇 When the shutter button has been pressed halfway, the control unit 10 checks again whether the shutter button has been fully pressed, that is, whether the supply of the full-press detection signal is received from the full-press detection unit 6-2. If the shutter button has been fully pressed, the process proceeds to step Q5, and if it is not fully pressed (ie, if it is still half-pressed), the process proceeds to step Q4 (step Q3). The low speed mode AF processing is executed when the shutter button is not fully pressed (refer to the first embodiment (steps P3 to P7 and P10 in Fig. 3) and the first to sixth modifications), and thereafter, it is detected in step Q3. Pressing the shutter button all the way to V will continue the low speed mode AF processing (step Q4). Further, in the case where the low-speed mode AF processing is completed before the full-press of the shutter button is detected, no processing is performed in step Q4 and it becomes the full-press detection waiting state of the shutter button in step Q3. When the full press of the shutter button is detected in step Q3, the control unit i checks whether the AF processing (that is, the low speed mode AF processing of step Q4 or the high speed mode AF processing of Q6) is completed, that is, whether it is from the AF control unit 1 2 The supply of the AF completion signal is received, and when the AF processing is completed, the process proceeds to step Q7, and if -19-201003278 is not, the process proceeds to step Q6 (step Q5). Further, in step Q5, even if the low-speed mode AF processing of step Q4 is not completely completed, the AF search processing in the low-speed mode is completed, and in the case where the focus lens is moved toward the focus position, the AF in step Q5 is judged. When the processing is completed, the high-speed mode AF processing of step Q6 is not performed, and after the movement of the focus lens to the in-focus position is completed, the photographing and recording processing of step Q7 is entered. On the other hand, if it is determined in step Q5 that the AF processing is not completed, the high-speed mode AF processing is executed (refer to the first embodiment (steps P3 to P7 and P11 in FIG. 3) /" and the description of the first to sixth modifications). Thereafter, the high speed mode AF processing is continued until the completion of the AF processing is detected in step Q5. Further, in the case where the low speed mode AF processing is not completed at the time of fully pressing the shutter button, the low speed mode AF processing of step Q4 is switched to the high speed mode AF processing, and the focus position is detected by the low speed mode AF and the high speed mode AF (step q6) . In step Q5, it is determined that the AF processing is completed, and at this time, the switching of the CCD driving mode during the shooting is performed, and the image compression processing is performed on the captured image data, and the image compression data (image file) L is recorded. Photography of an image of a frame component is completed (step q7). Further, in the first to sixth modifications (described below) of the first embodiment, the low speed mode AF processing in step Q4 and the high speed mode AF processing in step 〇6 are described. Further, af processing is performed, and the lens control motor unit n is controlled by the AF control unit 12 in this step q4, and the amount of movement (step interval) of the focus lens of the pair of frames is made small, and a frame is made in step Q6. When the amount of movement (step interval) of the focus lens becomes large, the same operation as in the case of the third embodiment is obtained. -20- 201003278 Further, the flowchart of Fig. 5 can also be applied to a half-pressing operation without a shutter button, and a full-pressing operation (high-speed mode AF) is started. For example, when the shutter button is fully pressed in steps Q2 to Q3 of FIG. 5, as shown in the example of FIG. 9 to be described later, the half-pressing operation of the shutter button may not be performed for a predetermined time or longer. Start halfway. In the case of this mode, it is judged that the pressing is completed once in a predetermined time from the half-press of the shutter button, and the low-speed mode AF processing of step Q4 is not executed, and the high-speed mode AF processing of step Q6 is executed. Further, it is also possible to make a shutter button that is electrically incapable of detecting (recognizing) a half-press operation when the half-press operation is not held for a predetermined period of time, and to perform the shutter button repeatedly in the determination method of pressing the shutter button once. If the half-press and full-press are judged, it is determined that the shutter button is not pressed halfway and it is determined that the shutter button is pressed all the way to the bottom, and the low-speed mode AF processing of step Q4 is not performed, and the high-speed mode AF processing of step Q6 is executed. . <First Modification> It is also possible to switch between the low-speed mode AF and the high-speed mode AF according to the half-press and full-press timing of the shutter button, and the moving speed of the focus lens in the high-speed mode AF when performing AF is lower than the low-speed mode. The focus lens moves faster at AF. The AF processing time can be shortened only by the acceleration component of the moving speed of the focus lens. Specifically, the steps of the flowchart of FIG. 5 are configured such that "the control AF unit 〇 controls the AF control unit 12 to start the contrast AF processing of the focus lens at a predetermined moving speed VI". Q4, the step Q6 is configured such that "the comparison AF process starts when the control unit 1 〇 controls the AF control unit 12 to move the focus lens at the moving speed V2 faster than the speed -21 - 201003278 VI" can. Further, in the first modification, for example, when the frame rate of the CCD is set to be equal in the low speed mode AF and the high speed mode AF, the search point interval in the fast mode AF is the same as in the first embodiment. It becomes wider than the search point interval in the low speed mode AF, and as shown in the second modification described later, the frame rate of the CCD in the high speed mode AF is higher than the frame rate of the CCD in the low speed mode AF. The search point interval can also be made equal in the high speed mode AF and the low speed mode AF. Further, in the first modification, it is effective whether the focus lens is paused or not stopped at the search point. <Second Modification> It is also possible to switch between the low speed mode AF and the high speed mode AF according to the timing of performing the half press and the full press of the shutter button, and the through image is also displayed during the AF execution in the low speed mode AF, and the user can easily track The moved subject, while in the high-speed mode AF, the display of the through image is interrupted during the AF execution, and the AF is performed at the frame rate of the higher i. For example, in the high-speed mode AF, the frame rate can be increased by dividing a part of the CCD (photographic element 3) and driving it, or by mixing and reading out the pixels. When the frame rate is increased, the number of search points is not reduced when the moving speed of the focus lens is increased, so that the AF accuracy can be maintained. For example, if only 1/3 of the pixels of the CCD are read out, the frame rate is increased by three times in this example, and since the moving speed of the focus lens can be made faster, the focusing time can be shortened. Specifically, "the contrast AF processing of the process of causing the control unit 1 to control the AF control unit 12-22-201003278 to move the focus lens at the first moving speed is started, and during this period, the full press of the shutter button is performed. Before the operation, the through image is displayed on the display unit 8′′ to form the step Q4 of the flowchart of FIG. 5 , and “the control unit 1 interrupts the display of the through image and performs the partial division drive of the CCD. And a frame AF rate is higher than a frame rate at the time of the low speed mode AF processing, and a contrast AF process of controlling the AF control unit 12 to move the focus lens at a second moving speed faster than the first moving speed The method of starting is to form step Q6. Further, in the second modification, it is effective whether the focus lens is paused or not stopped at the search point. <Third Modification> Further, it is also possible to switch between the low speed mode AF and the high speed mode AF according to the timing of half-press and full-press of the shutter button, and in the low-speed mode AF, as shown in FIG. 8A, The amount of movement of the focus lens of the frame is large (= step interval (lens position interval) is large) 7 1 performs coarse AF search, and detects the approximate focus position (focus position) 72, and then, near the detected focus position 値ί The fine AF search is performed with a small amount of movement of the focus lens (= step interval is small) 76, and the correct focus position 77 is detected, and in the high speed mode AF, only the amount of movement of the focus lens for one frame is large (= step interval) (Lens Position Interval) Large 71 The coarse AF search is performed, that is, the fine AF search with a small amount of movement of the focus lens 76 near the detected focus position 値 is omitted. For example, in the case where the shutter button is fully pressed in the low speed mode AF, when the full press time is in the coarse AF search, after the rough AF search is completed, the fine AF search is not performed, and only the focus position is obtained by the rough AF search. . -23- 201003278 In addition, it can also be used in the case of switching the low-speed mode AF to the high-speed mode AF in the fine AF search, as shown in Fig. 8B, switching to the amount of movement of the focus lens in one frame. The middle 78 (= step interval) 78 performs an appropriate coarse search. Further, in the case where the shutter button is fully pressed in the low speed mode AF, it is also possible to make the fine AF search still until the end when the AF search is performed at the time of the full press. Therefore, in the low-speed mode AF, first, the focus position obtained by the rough AF search is obtained, and then the two-stage AF of the correct focus position is obtained by narrow search with the approximate focus position, because The high-speed mode AF only obtains the focus position by the coarse AF search, so that the time can be shortened only by the time when the fine AF search is not performed, and as a result, the focus time can be shortened. Specifically, as shown in the flowchart of FIG. 9, step Q4 of the flowchart of FIG. 5 can be constituted by the following steps: "When the shutter button is not fully pressed, the control unit 10 checks whether or not the approximate focus is detected. Position 72, and the process proceeds to step Q4-4 when the approximated focus position 72 is detected, and proceeds to step Q4-2 (step Q4-1) when it is not detected; "when the strategy I is not detected In the case of the focus position 72, the control unit 10 first increases the amount of movement of the focus lens for one frame, and drives the lens drive motor unit 11 to cause the AF control unit 12 to use the coarse search interval 7 shown in Fig. 8A. 1 Perform AF search (step Q4-2)"; "Check the focus evaluation of the current position of the lens and enter the step Q4-4 when the approximated focus position 72 is detected, and return to step Q3 (step Q4_3) if not. When the focus position 7 2 of the strategy is detected in step Q3, the control unit 1 drives the lens drive motor unit 1 to cause the AF control unit 12 to perform the AF search at the fine search interval 76 (step Q4-4). . -24- 201003278 Further, in step Q4-4, the focus evaluation of the current position of the lens is checked, and the focus position 77 is detected, and after the focus lens is moved to the focus position 77, no processing is performed in step Q4-4. Therefore, in the low-speed mode AF, the coarse AF search is performed with a large amount of movement of the focus lens of one frame, and the approximated focus position 72 is detected, and then 'the small movement of the focus lens is detected near the detected focus position 値The amount is used for fine AF search to detect the correct focus position 77. Further, as shown in the flowchart of Fig. 10, the following steps can be used to form step Q6 of the flowchart of Fig. 5, "When the low speed mode AF processing is not completed", the control unit 10 checks whether it is in Fig. 9 In the fine AF search in step Q4-4, the process proceeds to step Q6-2 in the case of the fine AF search, and proceeds to step Q6-3 (step Q6-1) in the case of the coarse AF search; In the case of the search, the control unit 10 immediately suspends the fine AF search, that is, the suspension AF process 'after the focus lens position at the stop time is taken as the focus lens position', proceeds to step Q5 (step Q6-2); In the case of the AF search, the control unit 10 continues to increase the amount of movement i of the focus lens for one frame, and drives the lens drive motor unit 11 to cause the AF control unit 12 to be as shown in FIG. 8A. The rough search interval 7 1 performs the search operation, and returns to step Q5 (step Q6-3). Therefore, in the case of switching from the low-speed mode AF processing to the high-speed mode Af processing, the fine AF search is suspended, and when the AF processing is switched, the coarse AF search is continued, and the coarse search is continued. . <Fourth Modification> -25- 201003278 Further, it is also possible to change the low speed mode AF and the high speed mode AF according to the half-press and full-press timing of the shutter button, and to make a map in the low speed mode AF. The frame AF exposure time becomes longer, and in the high speed mode AF, the AF exposure time for one frame becomes shorter than the AF exposure time for the low speed mode AF. Therefore, when the exposure time is shortened by the focus search lens at the AF search point, since the stop time can be shortened, the AF processing time becomes shorter, and the focus lens is not stopped at the AF search point, and the exposure time is also shortened. At the time, since the frame rate becomes high, the AF processing time is shortened with the change f. Specifically, the step Q4 of the flowchart of FIG. 5 is configured by "the control unit 1 〇 controls the AF control unit 12 to increase the exposure time for one frame and start the comparison AF process". In the case where the control unit 10 controls the AF control unit 12 to make the exposure time for one frame shorter than the exposure time in the low-speed mode AF, and the comparison AF process is started, the step Q6 can be configured. . <Fifth Modification> ί Further, it is also possible to switch between the low speed mode AF and the high speed mode AF according to the timing of half-press and full-press of the shutter button, as shown in FIG. 1 in the low-speed mode AF, The moving range (AF search range) FW1 of the focus lens is made wider, and the moving range FW2 of the focus lens is narrowed in the high speed mode AF. Here, as shown in FIG. 11, when the movement range FW2 is completely included in the movement range FW1, the low speed mode AF is switched to the high speed mode AF, and at the time of switching, the AF search of the narrow movement range FW2 is completed. The AF search (AF processing) is immediately ended. Further, when the AF search for the narrow moving range FW2 is not completed in the low speed mode -26-201003278 AF, the AF search in the narrow moving range FW2 is performed to the narrow moving range FW2. The AF search is performed before the AF search is completed, and in the case of the AF search that is not the narrow movement range FW2, the focus search lens is moved to the end of the narrow movement range FW2 without the AF search, and the AF search of the narrow movement range FW2 is performed. Therefore, in the low-speed mode AF and the high-speed mode AF, since the moving range of the focus lens in the high-speed mode AF is narrow, the stop/number of the focus lens (the driving time of the focus lens) or the comparison data acquisition times, and the comparison data are compared. The number of times is small, so the focusing time is shortened. Also, in the case where the shutter button is fully pressed in the low speed mode AF, the overall focus time is shortened by the combination of the low speed mode AF and the high speed mode AF. Specifically, the control unit 10 controls the AF control unit 12 to perform the AF search by the wide movement range FW1 and performs the comparison AF processing, thereby configuring the step Q4 of the flowchart of the fifth diagram, and The control unit 1 controls the AF control unit 12 to perform the AF search in the narrow movement range FW2, and performs the comparison AF processing. <Sixth Modification> Further, the first embodiment and the fifth to fifth modifications described above may be combined. Fig. 6 is a list summarizing the operations in the low speed mode AF and the high speed mode AF in the first embodiment and the first to fifth modifications, and Fig. 7 shows the AF processing in the low speed mode AF and the high speed mode AF. The diagram of the combination example is a diagram showing two combinations of the AF processing in the first embodiment and the first to fifth modifications of the low speed mode AF and the high speed mode Af. -27- 201003278 In the combination column of Fig. 7, the symbol "2" means the first embodiment, and the symbols r HI" to "Η5" mean the first to fifth modifications. In the seventh embodiment, the combination of "Η5, Z" in the combination of the two of the first embodiment and the first to fifth modifications is as shown in Fig. 6, meaning The low-speed mode AF is in the wide movement range (the fifth modification). The movement amount (step interval) of the focus lens for one frame is made small (the first embodiment) to move the lens, and in the high-connection mode AF to be narrow. In the movement range (the fifth modification), the amount of movement of the focus lens for one frame is increased (the first embodiment) to move the lens. In addition, the combination of "Η1, H2" means that the moving speed of the focus lens is reduced in the low-speed mode AF during the AF execution in order to display the through image (second modification) (the first modification). The high-speed mode AF stops the display of the through image (second modification) during AF execution and increases the moving speed of the focus lens. In the example of the seventh embodiment, the combination of the two types of the first embodiment and the first to fifth modifications is shown, but it may be three to five types, and a combination example. For example, the combination of "Η4, Η5, Η3" means that in the low-speed mode AF, the coarse AF search is performed with a large amount of movement of the focus lens of one frame, and the focus position of the thumbnail is detected and then the focus is detected. In the vicinity of the position 値, the fine AF search is performed with a small amount of movement of the focus lens, and the correct focus position (third modification) is detected. 'In the high-speed mode AF, the AF exposure time for one frame is shortened (fourth modification)' In the narrow lens range (the fifth modification), the rough AF search is performed with a large amount of movement of the focus lens of one frame (third modification). -28-201003278 (Second Embodiment) In the first embodiment, the AF preparation low speed mode AF and the high speed mode AF in the contrast mode are performed, and the low speed mode AF is executed from the half-press of the shutter button to the full press, and the whole is performed. Switching from the low-speed mode AF to the high-speed mode AF when the shutter button is pressed, but it is also possible to predict the case where the low-speed mode AF is continuously executed at the time of fully pressing the shutter button and the time required for the AF from the case where the high-speed mode AF is initially executed, to predict It takes a relatively short time to execute AF. (Fig. 12 is a flowchart showing the details of the specific operation of the digital camera of the second embodiment, and Figs. 13A and 13B show the position and AF of the focus lens in the case of switching to the high speed mode AF in the low speed mode AF. In the figure 12, when the power of the digital camera 1 is turned on, the control unit 1 first performs necessary initialization such as clearing of RAM, DRAM, VRAM, or setting of a built-in register. The setting process (step R0). Next, the AE process for the through image v is performed at the focal length corresponding to the zoom 该 at that time, and the through image display on the display unit 8 is performed (step R1). The control unit 10 checks whether or not the control unit 10 has checked Pressing the shutter button halfway, that is, whether the half-press detection unit 6-1 receives the supply of the half-press detection signal, and has entered the step R3 when the shutter button is pressed halfway, and waits for the half-press of the shutter button if not (steps) R2). When the shutter button has been pressed halfway, the control unit 10 checks again whether the shutter button has been fully pressed, that is, whether the full-press detection signal -29-201003278 is received from the full-press detection unit 6_2, and the shutter button has been fully pressed. Feelings Proceeding to step R5, and proceeding to step R4 (step R3) if not fully pressed (step R3). In the case of not fully pressing the shutter button, the mode is in the low speed mode AF (see the first embodiment (Fig. 3) Description)) Perform processing of a frame component and return to step R3 (step R4). When the shutter button has been fully pressed, the control unit 10 checks whether the AF processing (that is, the low speed mode AF of the step R4) is Completion, that is, whether the supply of the AF completion signal is received from the AF control unit 12, and proceeds to step R13 when the AF processing is completed, and proceeds to step R6 (step R5) if not. The AF when the shutter button is fully pressed When the processing (the low speed mode AF of the step R4) is not completed (for example, the case shown in FIG. 13A), the control unit 10 calculates the time required for the focus A from the current time in the case where the low speed mode AF is continuously executed, and the initial time. When the high-speed mode AF is executed, the time required for focusing from the current time B (step R6), the time required for focusing A and the time B for focusing are compared, and in the case of A > B, the process proceeds to step R8, and not The situation proceeds to step R11 (step R7). In the case of the time required for focusing A> the time B required for focusing, the control unit 10 initializes the position of the focus lens (step R8), as shown in Fig. 13B, from the beginning, the high speed mode AF should be performed, and the high speed mode AF (Refer to the first embodiment (description of Fig. 3)), perform one frame component processing (step R9), and check whether the AF processing (i.e., the high speed mode AF of step R9) is completed, that is, whether it is from the AF control unit 1 2 Receiving the supply of the AF completion signal, and proceeding to step R13 when the AF processing is completed, and entering the step R9 when the AF processing is not completed (step R10) -30- 201003278, the time required for each focusing time B for the desired time of focusing A, control The portion 10 continues the low-speed mode AF (refer to the first embodiment (description of Fig. 3)) from the position of the focus lens at the time of the shutter button at the step R3, and performs a frame component processing (step R11)' and checks the AF. The processing (i.e., the low speed mode AF) is set to 'that is, whether or not the supply of the a F completion signal is received from the a F control unit 12', and proceeds to step R13 when the AF processing is completed, and proceeds to step R11 if not ( Step R12). In the case where the AF processing is completed in step R10 or R12, the CCD driving mode is switched on the horse at the time, and the image compression data is recorded after the image data of the captured image data is processed. Archive), complete the photography of the image of a frame component (step R13). According to the action shown in the flowchart of Fig. 12, because the digital camera 1 presses the shutter button according to the timing of the full press of the shutter button The subsequent AF action is determined to be shorter in the low-speed mode AF and high-speed mode AF until the focus is before the focus, so even if the user has pressed the shutter button all the way before the focus lens reaches the focus position, the camera can be made to the camera. In the case of the flowchart of FIG. 12, the processing of steps R6, R7, R11, and R12 may be omitted, and in step R5, it may be determined that the low-speed mode af processing is not completed. The process proceeds to step R8, and the structure of the AF control unit 12 of the first embodiment, the first to sixth modifications, and the second embodiment is performed not only by the hard body but also by the first high-speed mode AF. Now, it is also possible to realize the software processing by the control unit 1. In this case, the control unit 1 causes the function of the AF control unit 12 to be executed, and the program for realizing the above-described respective processes is stored in the program. In the digital camera 1 (for example, a ROM), the control unit 10 only needs to execute such a program. Moreover, the digital camera 1 in which the program is preloaded can be provided not only from the beginning, but also by applying the program to the existing one. The digital camera can also function as the digital camera 1 of the embodiment. The method of providing the programs of the first and second embodiments is arbitrary, and for example, it can be provided via a communication medium such as the Internet. For example, it can be stored in a recording medium such as a memory card and distributed. (Third Embodiment) FIGS. 14A to 14C are diagrams showing a digital camera of an imaging apparatus according to a third embodiment and a fourth embodiment of the present invention ( The appearance of an embodiment of the digital camera is hereinafter referred to as a front view of the first camera, a front view of the first 4A, a rear view of the first image, and a top view of the 14th C. In the 14th to 14th, the digital camera 50 As the 14th As shown in Fig. 1, there are a photographic lens 52 and a flash illuminating window 51 on the front side. Further, as shown in Fig. 14B, on the back side of the I digital camera 50, a mode dial 53, a liquid crystal monitor screen 54, and a cursor key are provided. 55 and the SET button 56, etc. Further, the zoom lever 57, the shutter button 58, the power button 59, and the flash light-emitting mode setting button 60 are provided as shown in Fig. 14C, although not shown in the figure, the side portion is provided. USB terminal connection unit used when connecting to an external device such as a personal computer or a modem, or a USB cable. Fig. 15 shows the electronic circuit configuration of the digital camera shown in Figs. 14A to 14C. A diagram of one embodiment. In Fig. 15, there is provided a zoom-32-201003278 drive unit 61-1'. The coefficient camera 50 moves the zoom lens in the shooting mode of the basic mode to perform an optical zooming operation; the AF driving unit 61-2 moves the focus lens. Moving focus position; lens optical system 62, forming photographic lens 52 including zoom lens and focusing lens; CCD 63 for photographic element; timing generator (TG) 64; vertical driver 65: sampling and holding circuit (S/H) 66; /D converter 67; color processing circuit 68; DMA controller 69; DRAM interface (1汴) 70; 〇11 八1^71; control unit 72; 乂11 into 1^ controller 73; 乂11 people]^74 : digital video encoder 75; display unit 76; JPEG circuit 77; storage, memory 78; key input unit 80; and flash drive unit 8 1 and the like. Further, the zoom drive unit 61-1 to the color processing circuit 68 correspond to the image pickup unit in the present invention. Further, the zoom drive unit 61-1 and the zoom lens correspond to optical zoom means in the present invention. In the monitoring state of the shooting mode, the zoom driving unit 6 1 -1 drives a zoom lens driving motor (not shown) to move the zoom lens. Further, the AF driving unit 61-2 drives the focus lens driving motor (not shown) to move the focus lens to the focus point. Further, the CCD 63' of the imaging element disposed behind the photographic optical axis of the lens optical system 62 of the photographic lens 52 is scanned by the timing generator (TG) 64 and the vertical driver 65 to monitor the imaging mode. A photoelectric conversion output corresponding to a light image imaged every fixed period is outputted. The CCD 63 is a solid-state imaging element that captures a secondary image of an object, typically capturing images of tens of frames per second. Further, the imaging element is not limited to a CCD', and may be a solid-state imaging element such as a CMOS (auxiliary gold-oxygen semiconductor). The photoelectric conversion output is subjected to appropriate gain adjustment of the RGB original -33-201003278 color components in the state of the analog signal, and is sample-held by the sample-and-hold circuit (S/H) 66, and converted by the A/D converter 67. The digital data is processed by the color processing circuit 68 to perform color processing including image interpolation processing and gamma correction processing, and digital luminance signals 色 and color difference signals Cb and Cr are generated and output to the DMA controller 69.

The DMA controller 69 uses the luminance signal Y and the color difference signals Cb and Cr output from the color processing circuit 68, and uses the composite synchronization signal, the memory write, the enable signal, and the clock signal from the color-processing circuit 68. The DMA transfer is performed to the DRAM 7 1 serving as a buffer memory via the DRAM interface (I/F) 70. The control unit 72 is a controller that controls the entire digital camera 50, and is composed of a CPU or an MPU (hereinafter referred to as a CPU), and a program storage memory that stores the CPU including the imaging operation control as will be described later. The buffer memory of the action program (including the photographing program) executed, and the RAM used as the working memory are configured to read from the DRAM 71 via the DRAM interface 70 after the DMA transfer of the luminance and color difference signals to the DRAM 71 is completed. I the luminance and color difference signals are written to the VRAM 74 via the VRAM controller 73. The control unit 72' corresponds to the status signal from the key input unit 8A, and is stored in the program storage memory such as the flash memory. The shooting program or the operation table data corresponding to each mode, and performing the execution control of the other functions of the digital camera 50, for example, not only the shooting operation control of the shutter button once, but also the zooming action, the through image display, and the flash driving. Control, autofocus, photography, recording, and recording of recorded images -34- 201003278 Execution control of display, display, etc., or function selection Function selecting operation display control table setting or the like of the display screen control. The digital video encoder 75 periodically reads the luminance and color difference signals from the VRAM 74 via the VRAM controller 73, and generates an image signal based on the data, and outputs the video signal to the display unit 76. As shown above, the display unit 706 functions as a monitor display unit (electronic window) when it is in the shooting mode, and displays it based on the video signal from the digital video encoder 75, and based on the time at which the video is output from the digital video encoder 75. VRaM, the image information taken by the controller 73 displays the image on the LCD monitor screen 54 in real time. When there is an in-focus instruction (in the present embodiment, the shutter button 58 is half-pressed), the control unit 72 transmits a drive control signal to the AF drive unit 6 1 -2 to move the focus lens of the lens optical system 62 to perform focusing ( The AF) action is performed when there is a shooting instruction (in the present embodiment, the shutter button 58 is fully pressed) (that is, the path from the C CD 63 to the DRAM 7 1 is stopped immediately at this time, and the pair and the through image are performed. The time is different from the C CD drive mode at the time of shooting, and is transferred to the state in which the record is saved. In the state of the save recording, the control unit 72 passes the luminance and color difference signals of one frame component written in the DRAM 71 to the vertical components by the DRAM interface (I/F) 70 for each component of Y, Cb, and Cr. X-wide 8 pixels is called a unit read of a basic block, and is written into a JPEG (Joint Photograph coding Experts Group) circuit 77, and the JPEG circuit 77 uses an ADCT (Adaptive Discrete Cosine Transform) and an entropy coding method. Processing such as Huffman coding to perform data compression. -35- 201003278 Then, the obtained encoded data is read out from the JPEG circuit 77, and recorded as a data file of the image in the recording medium of the coefficient bit camera 50, with the brightness of a frame component and The compression processing of the color difference signal and the writing of the compressed data of the storage memory 78 are completed, and the control unit 72 restarts the path from the CCD 63 to the DRAM 71. Further, in the playback mode of the basic mode, the control unit 72 selectively reads the image data recorded by the storage memory 78 and reverses the steps of the data compression in the video shooting mode by the JPEG circuit 77. And compressing the compressed image data, and unfolding and storing the decompressed image data in the VRAM 74 via the VRAM controller 73, periodically reading from the VRAM 74, and generating an image signal according to the image data to display backward. The liquid crystal monitor screen 54 of the unit 76 outputs (=displays) and plays the video. The key input unit 80 has the above-described mode knob 53, cursor key 55, SET button 56, zoom lever 57, shutter button 58, power button 59, and flash light mode setting button 60, etc., with those key operations The control unit 72 directly (^;; picks up the signal. The mode knob 53 is used to switch between the recording mode (photographing mode) and the play mode. The cursor key 55 is displayed in the liquid crystal by the cursor when the mode setting or the operation table is selected. The operation table of the monitor screen 54 or the key of the image isochronous operation can be moved up and down or left and right by the operation of the cursor key 55. The SET button 56 is used to select or confirm the use of the cursor key 5 5 . The button pressed when the cursor is displayed. -36- 201003278 The zoom lever 57 is used for zoom operation. Although the digital zoom is determined by the operation of the zoom lever 57 to determine the zoom 値, the actual image angle does not change. 'The image corresponding to the zoom image is trimmed and displayed on the LCD monitor screen 5 4 . Also, in the case of optical zoom, the operation of the zoom lens (the zoom lens) and the zoom lever 57 is shifted to the wide angle side or the telephoto side On the side, the zoom 値 is determined in accordance with the operation of the zoom lever 57, and the change of the zoom 値 is performed to actually change the image angle ' to display the wide-angle image or the telephoto image on the liquid crystal monitor screen. Further, in the present embodiment, the description will be described. It does not have a digital zoom function, and / only has an optical zoom function, but the present invention can also be applied to a digital camera having a digital zoom function. The shutter button 58 is a release operator during shooting, and has a 2-stage stroke. The operation of the first stage (half-press state) generates the focus indication signal for autofocus (AF), auto exposure (AE), and auto white balance (AWB), which is generated in the second stage operation (full press state). In addition, in this embodiment, when the shutter button 58 is pressed all the way (hereinafter referred to as "one press at a time"), the focus operation of the first stage is switched to a simple focus. The operation performs a photographing process when the simple focusing operation is completed, and stores the image data obtained by the photographing process in the RAM. A configuration in which the user can contact the shutter button 58 and the two-stage operation of the button operation by loading the touch sensor function on the shutter button 5 8, in this case, when the shutter button 58 is touched, the control portion 72 is performed as a half-press operator, and half-press processing is performed, and when the shutter button 5 8 is pressed, the control unit 7 2 performs full-press processing as a full-press operator. -37- 201003278 Flash light-emitting mode setting key 60 constitutes According to the switching structure of the pressing, the structure is rotated by "flash forced light mode", "flash automatic mode", and "lighting prohibition mode" according to the number of presses (the initial setting is "lighting prohibition mode"). The flash light-emitting mode setting key 60 has an LED at the front end, and is turned on or off in response to the light-emitting mode, such as a red light (flash forced light mode), a blue light (flash automatic mode), a light-off (lighting prohibition mode), and the like. The flash driving unit 8 1 performs a lighting mode set on the inner side of the flash light-emitting window 51 in front of the main body under the control of the control unit 72 in response to the light-emitting mode set by the operation of the flash light-emitting mode setting key f 60 ( Charging and illuminating (not shown). Fig. 16 is a flow chart showing an embodiment of a single-press determination and photographing operation of the shutter button 58 of the digital camera 50 for explaining that the digital camera 50 realizes the fast shutter function of the present invention. Programmer. Although the processing shown below is basically based on the example of the execution of the program stored in the program memory of the flash memory or the like in advance, the control unit 72 does not have to store all the functions in the program memory. It can be implemented as needed to receive one or all of it via the network. Hereinafter, description will be made based on Fig. 14A to Fig. 15. When the main power of the digital camera 50 becomes conductive, the control unit 72 transmits a control signal to the flash driving unit 8 1 to start charging of the flash (step S, and then 'performs the through image according to the focal length corresponding to the zoom 该 at that time) After processing, the image data is obtained from the CCD 63, and is adjusted by the color processing circuit 68, and the white balance corresponding to the color of the light source is made by the automatic white balance (AWB) processing -38 - 201003278, and then the DMA control is started. The device 69 and the DRAM interface (I/F) 70 transmit DMA to the DRAM 7 1 (step S2), and rewrite the image through image data extracted from the image data from the CCD 63 to the VRAM 74, and start liquid crystal monitoring of the display unit 76. The through image display of the screen 54 is performed (step S3). The control unit 72 checks the signal from the key input unit 80, and proceeds to step S5 when the flash light setting key 10-2 has been operated, and proceeds to the step where it is not pressed. S6 (step S4). In the case where the flash illumination setting key 1 0-2 has been operated in step S4, the flash illumination mode is set in accordance with the setting operation and the setting is saved in the RAM. Proceeding to step S6 (step S5), the control unit 72 checks the signal from the key input unit 80, checks whether the zoom operation of the zoom lever 57 has been performed, and proceeds to step S7 when the zoom operation has been performed, and does not proceed. Proceeding to step S8 (step S6). In the case where the zooming operation has been performed in step S6, the zoom lens is obtained in response to the zooming operation, and the zoom driving unit 61-1 is driven according to the zooming unit to move the zoom lens to change the optical After zooming the zoom and saving the zoom 于 in the RAM (write-on-storage), the process proceeds to step S8 (step S7). Next, the control unit 72 checks the signal from the key input unit 80 to check whether there is a half-press operation of the shutter button 58. When there is a half-press operation, the process proceeds to step S9, and if it is not pressed, the process returns to step S4 (step S8). In the case where there is a half-press operation of the shutter button 58 in the step S8, the control unit 72 checks the step at this step. The flash light mode set by S5, when setting the flash forced light mode, or setting the flash automatic mode and judging the surrounding brightness is below the predetermined threshold, the flash-3 is required. 9-201003278 In the case of light emission, the process proceeds to the flash photography process shown in the flowchart of Fig. 18. If not, the process proceeds to step S10 (step S9). In this step S9, it is determined that the flash light is not required. The control unit 72 starts the contrast AF processing in which the step width for photographing is narrow, and makes the AE processing and automatic white balance for the photographing based on the image through image data taken when the shutter button 58 is pressed halfway (AWB) The processing starts. In addition, before the full-press operation of the shutter button is performed, the image through image data extracted from the image data of the CCD 63 is also rewritten to VRAM / 7 4, and the through image is displayed on the display. Part 7 6 LCD monitor screen 5 4 . In the general contrast AF processing, the AF driving unit 6 1 - 2 moves the focus lens at uniform step intervals, pauses the focus lens in each step, and changes the focus position from infinity to the front for comparison. In the acquisition and comparison, the position at which the contrast 値 becomes the maximum is regarded as the focus position, and the focus lens is moved (step S10). Then, the control unit 72 checks the signal from the key input unit 80, checks whether there is a full-press operation of the shutter button 58, and if there is a full-press operation, it proceeds to step S12 (step S11). The control unit 72 checks whether or not it is in the contrast AF processing, and proceeds to step S13 in the case of the AF processing, and proceeds to step S14 (step S1 2) when the processing is not in the contrast AF processing (general AF processing) for the photographing. Before the above-mentioned determination of the focus position, image data processing (photographic processing, contrast extraction processing, contrast comparison processing) and lens unit drive control (focus lens movement, stop movement, restart movement) are required in each step. Because -40- 201003278 It takes time for the camera user to start capturing the object in the window, to focus on and press the shutter button 5 8 and shoot before shooting, so press the shutter button 58 8 times. In the case, simple AF processing with a wide search interval as shown in Fig. 17B is performed. In other words, the control unit 72 determines that the situation in the AF processing is switched to a simple contrast AF in which the step width is wider than the step width of the general contrast AF processing started by the half-press of the shutter button 58 in the step S12. Processing, after continuing the general contrast AF processing, a simple contrast AF processing is performed. ^ . . At this time, refer to the correspondence table for the simple AF shown in Fig. 1 7 A (the zoom i. 値 and the correspondence table 90 of the search interval), as shown in the 1st 7B "the full press of the shutter button" In the display, switch to the simple contrast AF processing in which the step width of the zoom 为 is wide. Here, the 1st 7Bth diagram is a view showing the focus position of the focus lens pause, showing the movement of the focus lens for performing the general contrast AF processing from the lens end by the half-press operation of the shutter button 58, and The state in which the focus lens position is switched from the detection of the full-press operation of the shutter button 58 to the state of the movement of the focus lens for performing the simple contrast AF process is shown. In the example of Fig. 17, when the shutter button 58 has been fully pressed, if the zoom 値 = x2, in the simple AF processing, the search interval pw2 = 3 from the 17th eightth image, after the shutter button 58 is fully pressed, the focus lens is Move 3 steps. Therefore, when switching to simple AF processing, the number of stops of the focus lens becomes 1 / 3 in the example of Fig. 7 because the moving time of the focus lens is shortened, so that the focus time is shortened. That is, 'in general AF processing and simple AF processing, even if the range of movement of the focus lens is the same, the number of stops of the focus lens due to simple AF processing, the number of photographing operations, the number of times of comparison data acquisition -41- 201003278 and comparison data The number of comparisons and the like is relatively small, and by combining the general AF processing and the simple AF processing, the time from the operation of the shutter button 58 to the photographing as a whole is shortened (step S13). Further, the control unit 72 checks whether or not the AE processing for photographing started in step S10 is continued, and proceeds to step S15 in the case of AE processing, and proceeds to step S16 (step S14) if not. Since not only the AF processing but also the AE (automatic exposure) processing affects the shutter time, the shutter button 58 is fully pressed before the AE processing started by the half-press of the shutter button 58 is completed, that is, the shutter is opened. The button 58 is switched to the simple AE process in the case where the button is pressed to the bottom. Therefore, the control unit 72 determines in step S14 that the AE process is in progress, stops the diaphragm control of one of the AE processes, and proceeds to step S16. Thus, the AE processing can be alleviated and the AE processing time can be shortened. Further, in the modification, it is also possible to perform not only the stop of the diaphragm control but also the simple AE processing of the time-consuming aperture operation (step S15). Further, the control unit 72 checks whether or not the photographing for the photographing start from step S10 starts, and whether the moving white balance (AWB) processing is continued, the case of the AWB processing proceeds to step S17, and if not, the processing proceeds to the step. S18 (step S16).

Since not only the AF processing or the AE processing but also the AWB processing affects the shutter time lag, the shutter button 58 is fully pressed before the AWB motion started by the half-press of the shutter button 58 is completed, that is, the shutter button 58 is pressed. - Switching to a simple WB processing is performed in the case of the next press. Therefore, the control unit 72 determines that the AWB process is in step S16, and switches to the simple AWB process to step s1. Therefore, the AWB-42-201003278 action can be alleviated, and the AWB action time can be shortened. In addition, in the simple AWB processing, for example, in AWB, although a suitable type of WB値 is selected from about seven types, it may be changed to select a suitable one from about three representative types ( Step S17). The control unit 72 checks all the processes, that is, the processing of the steps S 10 or S 1 3, S 1 7 , etc., that is, whether the AF processing, the AE processing, and the AWB processing are all completed, and in the case of completion, the processing proceeds to step S1, and In the case of not completing, it waits for completion (step S18). When all the processing is completed, the path from the CCD 63 to the DRAM 71 is stopped immediately at this time, and the switching of the CCD driving mode at the time of shooting is different from that of the straight-through image acquisition, and the image data taken in is imaged. After the compression processing, the compressed image data (image file) is recorded, and the image of the image of one frame component is completed, and the process returns to step S2 (step S19). Figure 17 is a structural example in which the search interval of the zoom 値 and the focus lens referred to by the photographic program is assigned to the correspondence table for the corresponding simple AF, and the structure of the 1st 7A diagram correspondence table is used. An illustration of the simple AF I. The correspondence table 90 takes the zoom pupils X1, x2, . . . , xn toward the wide-angle side on the telephoto side shown in the first drawing, and the search intervals pw1, pw2, ... for the simple AF correspond to the respective zoom pupils. to make. In general AF processing (first-AF processing), as shown in FIG. 7B, although the search intervals are each equal, in the simple AF processing (second AF processing), the step width differs depending on the zoom ,. The movement width (step width) of the focus lens in the case where the zoom lens is located on the telephoto side is set to be smaller than the case where the zoom lens is located on the wide angle side - 43-201003278. For example, for the 1st 7A picture, if the left side is the telephoto side and the right side is the wide angle side, the search interval of the corresponding table 90 is set according to the zoom ,, so that the search interval pwl is 2 steps when the zoom 値 is X1, and the zoom 値 is X2. The search interval pw2 is 3 steps. Therefore, the number of stops of the focus lens when the zoom 値 is χ 1 becomes 1/2 of the normal AF processing, and the number of stops of the focus lens when the zoom 値 is χ 2 becomes 1/3 of the general AF processing, because of the number of stops Reduced' so the lens movement time is shortened. In addition, since the contrast time f, the comparison time and the shooting time are also shortened, it is easy to use the correspondence table 90 for setting the search interval as shown in Fig. 17. The AF processing is shortened as a whole from the full press of the shutter button 58 to the shooting. In the present embodiment, the point data for focusing of each of the zoom sections is stored in the program storage memory in the table constant or the like, and is referred to in the operation of the image program shown in the flowchart of Fig. 16. Alternatively, it may be set in advance in the storage memory 78 and referred to in the imaging program. [Flash photography] i , Fig. 18 shows the determination and photography of the shutter button 58 of the digital camera 50 in the case where the flash forced mode is selected (or when the automatic flash mode is determined to require the flash to be illuminated). The flowchart of one embodiment of the operation is an example of an imaging operation of the digital camera 50 in the case where the determination process in step S9 of the flowchart shown in Fig. 6 is determined to require the flash light to be emitted. In step S9 of the flowchart of Fig. 16, when it is determined that the flash light is required, the control unit 72 starts the contrast AF processing for flash photography, -44-201003278 and sets the WB for white photography (white balance).値 and exposure (EV) 値. Further, the through image is displayed on the liquid crystal monitor screen 54 until the shutter button 58 is fully pressed during this period (S21). Next, the control unit 72 checks the signal from the key input unit 80, and determines whether or not the shutter button 5 has been fully operated. When the shutter button 58 has been fully pressed, the process proceeds to step S23 (step S22). The control unit 72 checks whether it is the contrast AF process, and the process proceeds to step S24 in the AF process, and proceeds to step S26 (steps T1, S23) when it is not. Since the AF process affects the shutter time, it is by the shutter button. When the shutter button 58 has been fully pressed before the AF processing of the half press of 58 is completed, that is, the shutter button 58 is pressed to the bottom in the AF processing, and the AF processing is switched to simple. Therefore, the control unit 72 determines that the AF process is being executed in the step S23, and switches the AF process in execution to the simple AF process of the correspondence table for the simple AF process shown in Fig. 17, and then proceeds to step S25 ( Step S24). ί The control unit 72 checks whether the simple AF processing is completed, and proceeds to step S26 (step S25) when the simple AF processing is completed, checks whether the flash is being charged, and proceeds to step S27 when charging, and does not. The process proceeds to step S28 (step S26). Since not only the AF processing but also the charging of the flash is one of the factors that cause the shutter time to become longer, the shutter action is prioritized and photographed when the shutter button 58 is fully pressed during the flash charging. Therefore, the control unit 72 determines in the step S26 that the flash is being charged, stops charging of the flash (step -45 - 201003278 S 2 7), and controls the flash driving portion 81 to cause the flash to emit 'and the time immediately stops from The path of the CCD 63 to the DRAM 71 is performed, and the switching of the C CD driving mode at the time of shooting is performed differently from the image acquisition. After the image data of the captured image is subjected to image compression processing, the image pressing material (image file) is recorded, and one image is completed. The photographing of the image of the frame component is followed by step S1 (step S28). Further, in the case where the flash power is stopped in step S27, the flash light is caused to emit light in the range of the capacity of one half of the charging in step S2. / According to the action shown in the flowchart of Fig. 16, when the operation button has been pressed halfway, although AF processing, AE processing, or AWB processing is performed, when the half-press is pressed all the way, because AF processing, or The AE or AWB processing is switched to simple AF processing, or AE processing, or processing, so the time becomes shorter, and since the time from the shutter button full pressing to the shooting can be shortened, it is possible to prevent the missed shutter opportunity from falling behind. It happened. You can get images with the best focus, without missing opportunities or time lags. Also, since the AF processing is not omitted when the shutter button is pressed all the way by the shutter button, even if the depth of field is not deep, the image with good focus accuracy can be shot. For example, since the AF processing affects the lag of the shutter time, even if the button 5 8 has been fully pressed, even if the AF processing is halfway, the shooting is performed after the simple AF processing by giving priority to the quick shooting, so compared with the shooting at the stop Af. The focus accuracy is improved, and the AF processing time becomes extremely short after waiting for the shooting ratio after the AF processing is completed. Moreover, since the AE processing affects the shutter time lag, the mirror shutter door of the shutter button 58 is moved when the shutter of the straight-through pair is retracted, and the shutter is activated. 46- 201003278 Key 5 8 - When the button is pressed to the end, the shutter operation is prioritized, the normal AE operation is continued, and the simple AE processing is performed (see step S1 5), and the AE is always performed during the shooting preparation operation. The processing is different from the focusing operation in which the AF processing is performed when the shutter button is pressed halfway, and the exposure error is small in actual shooting. In addition, if the AE is not adequately processed (overexposed or insufficient), it is easy to correct it later by using a retouching program. In addition, since the AWB processing also affects the shutter time lag, when the shutter button 58 is pressed all the way down, the shutter operation is prioritized, the general AWB processing is continued, and the simple AWB processing is performed (see step S17). Since the AWB process is always performed in the shooting preparation operation, the AWB has fewer judgment errors. In addition, it is easy to correct with the use of a retouching program, etc., if the AWB is not adequately processed (the color is strange). Further, according to the operation shown in the flowchart of Fig. 18, since the digital camera 50 stops the charging of the flash when the shutter button is fully pressed, the time from the full press of the shutter button 58 to the flash photography becomes short, and Shoot when you miss the shutter opportunity or produce time behind. <Modifications> In the flowcharts shown in Figs. 16 and 18, the shutter button 5 8 is fully pressed during the AF processing by half-pressing the shutter button shutter button 58. In the case of the shutter button 58, the AF processing, the AE processing, or the AWB processing is not completed as a condition for one-time final determination, and is switched to the simple processing'. However, the one-time determination method of the shutter button is not limited to this method. The following is a description of a modification in which the shutter button is pressed one at a time. -47- 201003278 Figure 19 is a flow chart showing a modification of the shutter button of the digital camera and a modification of the shooting operation. When the half-press of the shutter button is not maintained for a predetermined time or longer, the half-press is not made. In the example of the start of the operation, the step S8 of the flowchart shown in Fig. 16 is changed to the steps S30 to S42 as shown in Fig. 19 . According to steps S30 to S33 of Fig. 19, when the shutter button 5 is pressed halfway and the button is fully pressed within a predetermined time, it is determined that there is a shutter button - the second press is performed, and the process proceeds to the simple processing of steps S3 0 to S42. In Fig. 19, when the zoom operation is not performed in step S6 of Fig. 16, or f is performed in accordance with the zoom operation in step S7, the control unit 72 checks whether or not there is a half of the shutter button based on the signal from the key input unit 80. According to the operation, the process proceeds to step S31 in the case where there is a half-press operation, and returns to step S4 in the flowchart of Fig. 16 in the case of no (step S30). The control unit 72 clears the shutter operation time measuring timer to zero and starts counting (step S 3 1 ), and the timing is completed, that is, the user's intention is judged when the predetermined time (the half time is not pressed in a predetermined time) The half-press operation is performed to proceed to step S9 of the flowchart of Fig. 16, and the half-pressing operation is started (S10-S19 1. or S21-S28), and in a predetermined time, the process proceeds to step S33 (step S32). The control unit 72 checks the signal from the key input unit 80 to determine whether the shutter button 5 has been fully pressed, and proceeds to step S34 when the shutter button 58 has been fully pressed, and returns to step S32 if the operation has not been fully pressed. (Step S33). When the shutter button 58 is pressed down to the end in the steps S 3 1 to S 3 3 (the half-press is pressed all the time and then pressed all the time), the control unit 72 checks the step s of the flowchart -48-201003278 in Fig. 16 The set flash lighting mode proceeds to step S38' in the case where the flash forced light mode or the flash automatic mode requires the flash light to be emitted, and if not, the process proceeds to step S35 (step S34). When it is determined in the step S34 that the flash light is not required, the control unit 72 starts the simple contrast AF processing for the photographing (for example, the AF processing by referring to the correspondence table for the simple AF shown in Fig. 17). And, based on the image through image data taken when the shutter button 58 is pressed halfway, the AE processing and the automatic white balance (AWB) processing are started (step S35). The control unit 72 checks all the processing, that is, whether the simple AF processing, the AE processing, and the AWB processing started in the step s 35 are completed, and proceeds to step S37 when completed, and waits for completion when not completed (step S36). ). When all processing is completed, the path from the CCD 63 to the DRAM 71 is stopped immediately at this time, and the switching of the CCD driving mode at the time of shooting different from the straight-through image acquisition is performed, and the captured image data is imaged. After the compression processing, the compressed image data (image file) is recorded, and the image of the image of one frame component is completed, and the process returns to step S2 of the flowchart of Fig. 16 (step S37).

V In the step S34, it is determined that the flash light is required to be emitted, and the control unit 72 sets WB (white balance) 値 and exposure (EV) 闪光灯 for flash photography, and starts the simple AF processing as described above (step S38). ). The control unit 72 checks whether the simple AF processing is completed, and proceeds to step S40 (step S39) when the simple AF processing is completed, checks whether the flash is being charged, and proceeds to step S41 while charging, and enters in the case of no. Step S42 (step S40). -49- 201003278 The control unit 72 determines in the step S40 that the flash is being charged, stops charging of the flash (step S4 1 ), and causes the flash to emit light within the range of the capacitor capacitance 闪光灯 for the flash at that time, and at this moment Immediately stop the path from CCD6 3 to DRAM7 1 and perform the switching of the CCD driving mode at the time of shooting different from the straight-through image acquisition, and perform image compression processing on the captured image data, and then record the image compression data ( Image file), after completing the photographing of the image of one frame component, returning to step S1 (step S42) ° - according to the action shown in the flowchart of the nineteenth figure, the shutter button is operated from the half press operation. When the time until the full press is determined for a predetermined period of time, it is determined that the shutter button 58 is pressed to the end, and the photographing is performed by simple AF processing, AE processing, or AWB processing. The time until the shutter button is pressed to the end of the shooting becomes extremely short, so that the image with the focus accuracy can be obtained without missing the shutter opportunity or generating time. . Further, in the case where flash photography is required, the charging is stopped and the flash photography is performed, because the time from the pressing of the shutter button 58 to the end of the flash photography is extremely short, so that the same effect is obtained. Further, in the above-described modification, although the case where the shutter button 58 is pressed halfway and the button is fully pressed within a predetermined time is determined to be pressed once, the method of determining that the shutter button is pressed all the time is not limited to the method. When the half-press of the shutter button 58 is not maintained for a predetermined time or longer, the half-pressing operation is not started. In other words, it is also possible to perform the contrast AF processing, the AE processing -50-201003278, and the AWB processing for the photographing when the shutter button 58 is half-pressed in the step S390 of the nineteenth figure, and other than In the case of the case where the shutter button 58 is not half-pressed, it is determined that the pressing is performed once, and the processing proceeds to the processing of steps S33 to S42 of Fig. 19. According to this configuration, after the shutter button 58 is operated, the shutter button 5 is fully pressed for a predetermined period of time, and it is determined that the button is pressed once, and the photography is performed by the simple AF processing, the AE processing, or the AWB processing. Since the time from the pressing of the shutter button 58 to the end of the shooting can be shortened, the same effect as in the case of the above-described modification is obtained. / Alternatively, it is also possible to make a shutter button 5 8 that is electrically incapable of detecting (recognizing) a half-press operation by a half-press operation without a predetermined time, and repeating the determination of the shutter button once. The half-press and full-press determination of the shutter button 58 will determine that the shutter button 58 has not been pressed halfway and it is determined that the shutter button 58 is fully pressed (ie, the shutter button 58 is pressed all the way down, and the shutter button 58 is at When one of the extremely short moments is pressed by the half-pressed position, it is determined that the pressing is performed once, and the processing proceeds to the processing of steps S33 to S42 of Fig. 19. According to this configuration, the photographing by the simple AF processing, the I AE processing, or the AWB processing is also performed, and since the time from the pressing of the shutter button 58 to the shooting is shortened, The same effect as in the case of the above-described modification. (Fourth Embodiment) In the third embodiment, when the shutter button 58 is pressed to the bottom, it is shortened by simply switching between the AF processing, the AE processing, the AWB processing, and the flash illumination. The time from the shutter operation to the photographing process 'but shortens the time from the shutter operation to the photographing processing -51-201003278' is not limited to the example of the third embodiment. Hereinafter, an example in which the shutter button 58 is pushed down to the bottom, the Af process, the AE process, the AWB process, and the flash light emission are stopped (or not performed), and the time from the shutter operation to the photographing process is shortened. Further, in the following description, the appearance and internal structure of the digital camera are similar to those of the digital camera 50 shown in Figs. 14A to 14C and Fig. 15. Fig. 20 is a flow chart showing an embodiment of the one-shot operation of the shutter button of the digital camera 50. This flowchart is for explaining a programmer who causes the f-digital camera 50 to implement the fast shutter function of the present invention. Basically, the control unit 72 performs an example in which the following processing is executed in accordance with a program stored in a program memory such as a flash memory, etc. 'But it is not necessary to store all the functions in the program memory, and it is also possible to respond. It is implemented by receiving some or all of it via the network as needed. Hereinafter, description will be made based on Fig. 14A to Fig. 16 and Fig. 20. Further, in the processing of steps S1 to S7 of Fig. 20 and the processing of steps S1 to S7 of Fig. 16 (in the 20th drawing, there is a half-press operation of the shutter button 58 in step S8 of (Fig. 16). The control unit 72 checks the flash illumination mode set in step S5 (Fig. 16), and proceeds to step S67 in the case where the flash illumination mode such as the flash forced illumination mode or the flash auto mode is required, and is not The case proceeds to step S62 (step S61).

In the step S61, it is determined that the flash illumination is not required, the control unit 72 starts the contrast AF processing for the photographing, and makes the AE processing and the AWB based on the image through image data taken when the shutter button 58 is half pressed. 52- 201003278 Processing begins. In addition, before the full-press operation of the shutter button is performed, the image through image data extracted from the image data from the CCD 63 is rewritten to the VRAM 74, and the through image is displayed on the liquid crystal monitor screen 54 of the display unit 76 (step S62). Next, the control unit 72 checks the signal from the key input unit 80, and determines whether or not the shutter button 5 has been fully pressed. When the shutter button 58 has been fully pressed, the process proceeds to step S64 (step S63). In step S64, the control unit 72 checks whether any one of the AF, AE, and AWB that has started in step S62 is in the process, and if it is not in the process, the process proceeds to step S6, and the process is stopped. After the processing in progress (step S6 5), the path from the CCD 63 to the DRAM 71 is stopped immediately at this time, and the switching of the CCD driving mode at the time of shooting different from the straight-through image acquisition is performed, and the captured image is taken. After the data is subjected to image compression processing, the compressed image data (image file) is recorded, and the image of the image of one frame component is completed, and the process returns to step S2 (step S6). 又i. When it is determined in this step S61 that the flash light is required to be emitted, the control unit 72 starts the contrast AF processing for the flash photography, and sets the WB (white balance) 値 and the exposure (EV) 闪光灯 for the flash photography. Further, before the full-press operation of the shutter button 58 is reached during this period, the through image is displayed on the liquid crystal monitor screen 54 (step S67). Next, the control unit 72 checks the signal from the key input unit 80, determines whether or not the shutter button 5 has been fully pressed, and proceeds to step S6 9 when the shutter button 58 has been fully pressed (step S68). -53- 201003278 The control unit 72 checks whether or not the comparison AF processing that has started in step S67 is continued. 'In the case of the AF processing, the process proceeds to step S70'. If not, the process proceeds to step S71 (step S69). When it is determined in the step S69 that the AF processing is in progress, the control unit 72 stops the AF processing 'and moves to step S71 (step S70), and checks again whether it is the flash charging, and the charging proceeds to step S72, but not The situation proceeds to step S74 (step S71). When it is determined in the step S 71 that the flash is being charged, the flash/lamp charging is stopped (step S72), no flash is emitted, and the path from the CCD 63 to the DRAM 71 is stopped immediately at this time, and the execution is different from that of the through image acquisition. The CCD driving mode is switched during the shooting, and after the image data is compressed, the image compression data (image file) is recorded, and after the image of the image of the frame component is completed, the process returns to step S. 1 (Step S7 3) Further, in the case where it is determined in the step S7! that the flash is being charged, the flash driving unit 801 is controlled to cause the flash to emit light, and the path from the CCD 63 to the DRAM 71 is stopped immediately at this timing, and is executed. When the through image is acquired, v. The switching of the CCD driving mode at the time of shooting is performed, and after the image data of the captured image data is subjected to image compression processing, the image compression data (image file) is recorded to complete a frame component. After the image is captured, the process returns to step S1 (step S74). 〇 According to the action shown in the flowchart of FIG. 20, when the shutter button 58 has been pressed halfway, the image is accurate. In the preparation operation, although the AF processing, the AE processing, or the AWB processing is started, since the shooting preparation operation in the processing is stopped and the photographing processing is performed when the user presses the half-press, the shutter is pressed -54 - 201003278. The photography can be performed in an instant when the button is pressed all the time, and the image is taken without missing the shutter opportunity or generating a time lag. Further, in the case of charging the flash, the same effect is obtained because the charging is stopped and the photographing is performed. <Modifications> According to the operation shown in the flowchart of FIG. 20, the shutter button 58 is fully pressed when the shutter button shutter button 58 is operated halfway and the a F process is performed. When the shutter button 58 is pressed all the way, the process of a F processing, AE processing, or AWB processing is not completed as the one-time determination of the strip ί ' and the processing in the operation is stopped, but the shutter button is pressed once to determine The method is not limited to this method. The shutter button similar to the modification of the third embodiment can be judged one at a time, and a modification example in which the shutter button is pressed once is described below. FIG. 2 is a flowchart showing a modification of the single-press determination and the photographing operation of the shutter button of the digital camera, and is an example in which the half-press of the shutter button is not maintained for a predetermined time or more, and the half-pressing operation is not started. Step S3 1 of the flowchart shown in Fig. 9 is changed as shown in Fig. 2 (steps S80 to S89. Therefore, in step S30 of Fig. 19, after the shutter button 58 is pressed halfway, If it is determined that the press is completed once in a predetermined period of time, the process proceeds to steps S82-S89. In Fig. 2, the shutter operation time measurement is timed in step S3 1 of Fig. 19. After the timer is cleared to zero and the timer is completed, the timer is judged to be a half-press operation when the predetermined time (not half-pressed in a predetermined time), and the process proceeds to step S61 of the flowchart of FIG. 21. The half-pressing operation is started (S61 to S74), and the process proceeds to step S81 (steps -55 - 201003278, step S80) in a predetermined time. Next, the control unit 72 checks the signal from the key input unit 80 to determine whether or not the button has been fully pressed. Operating the shutter button 58 has been in a given time When the shutter button 58 is pressed, it is judged that the pressing is performed once, and the process goes to step S 8 2, and in the case of not pressing the operation, the process returns to step S 8 0 (step S 8 1). In this step S80 to S81, the shutter is used. When the button 58 is pressed to the bottom (full press in a predetermined time after half-pressing), the control unit 72 checks the flash light-emitting mode set in the step S5 (in the flowchart of Fig. 6), such as flash forced, light-emitting mode. In the case of the flash auto mode requiring the flash illumination mode, the process proceeds to step S85, and if not, the process proceeds to step S83 (step S82). In the step S82, it is determined that the flash illumination is not required, and the control unit 72 stops the through image. AE processing and AWB processing (step S83) 'and immediately stop the path from the CCD 63 to the DRAM 71 at this time, and perform the switching of the CCD driving mode at the time of shooting when the through image is acquired' and the captured image After the image is subjected to image compression processing, the compressed image data (image file) is recorded, and the image of the image of one frame component is completed, and returned to the step of the flowchart of FIG. 16 (step S2). S 84) In the step S 8 2, it is determined that the flash is required to be illuminated. The control unit 7 2 sets WB (white balance) 値 and exposure (EV) 闪光灯 for flash photography (step S 8 5), and checks whether it is a flash. During charging, the process proceeds to step S87, and if not, the process proceeds to step S89 (step S86). In the step S86, it is determined that the flash is being charged, and the charging of the flash is stopped (step S87). Flash light 'stops at this moment immediately• 56- 201003278 From the CCD6 3 to the DRAM71 path, and the switching between the CCD driving mode at the time of shooting and the straight-through image acquisition, the image compression of the captured image data is performed. After the processing, the image compression data (image file) is recorded, and after the image of the image of one frame component is completed, the process returns to step S1 (step s 8 8 ). On the other hand, in the case where it is determined in the step S86 that the flash is not being charged, the flash is caused to emit light, and the path from the CCD 6 3 to the DRAM 71 is stopped immediately at this timing, and the photographing is performed differently from the straight-through image acquisition. When the CCD driving mode is switched, after the image data of the captured image data is subjected to image compression processing, the image compression data (image file) is recorded, and after the image of the image of the frame component is completed, the process returns to step S1 (step S 89). According to the operation shown in the flowchart of FIG. 2, when the time from the half-press operation of the shutter button 58 to the full-press is a predetermined time, it is determined that the shutter button 58 is pressed to the bottom. The photographing is performed without the AF processing, the AE processing, or the AWB processing for the photographing, because the shutter button 58 can be instantaneously photographed when it is fully pressed, so that the image can be photographed without missing the shutter opportunity or the time lag. Also, in the case of L requiring flash photography, since the charging is stopped in the case of charging the flash and the photography without the flash is performed, the same effect is obtained. In the above-described modification, although it is determined that the shutter button is fully pressed for a predetermined period of time after the shutter button 58 is pressed halfway, the method of determining that the shutter button is pressed once is not limited to the method, and may be constructed. When the half-press of the upper shutter button 58 is not held for a predetermined time or longer, the half-pressing operation is not started. In other words, it is also possible to perform the contrast AF processing, the AE processing, and the -57-201003278 AWB processing for the photographing when the shutter button 58 is half-pressed in step S30 of Fig. 19, and in other cases ( When the shutter button 58 is not pressed halfway, it is determined that the press is performed once, and the process proceeds to steps S82 to S89 of Fig. 21 . According to this configuration, when the shutter button 58 is fully pressed within a predetermined time after the shutter button 58 is operated, it is determined that the pressing is performed once, and the shooting is stopped to stop the AF processing, the AE processing, or the AWB processing. Since the time from the shutter operation to the shooting becomes extremely short, the same effect as in the case of the above-described modification is obtained. In addition, it is also possible to make the shutter button 58 which is electrically unable to detect (recognize) the half-press operation by the half-press operation without holding the predetermined time, and to make the shutter repeatedly in the determination method of the one-press press of the shutter button. The half press and the full press of the button 5 8 determine that the shutter button 58 is not pressed halfway and it is determined that the shutter button 58 is fully pressed (ie, the shutter button 5 8 is pressed all the way down, and the shutter button 5 8 is at the pole). When one of the short-times is pressed by the half-pressed position, it is determined that the press is performed once, and the process proceeds to steps S33 to S42 of Fig. 19. According to this configuration, the AF processing, the AE processing, or the AWB processing is also performed, and the time from the shutter operation to the shooting is made to be extremely short, so that the same effect as in the above-described modification is obtained. . Further, in the third and fourth embodiments and their modifications, the AF operation started by the half-press operation of the shutter button 58 and the AF operation started by the full-press operation of the shutter button 58 will be the AF search. The range is set to the same 'but it can also be made to make the AF search range different. For example, the AF search range for the Af operation started by the half-press operation of the shutter button 58 may be set to the first AF search range 'AF operation to be started by the full-press operation of the shutter button 58. The AF search range is set to be a second AF search range narrower than the first-58-201003278 AF search range. In this case, the second AF search range may be arbitrarily set by manual operation by the user, or the photographing scene may be determined based on the photographing conditions obtained at the time of photographing or the contrast obtained from the image data. And the AF search range corresponding to the determination result is set to the second AF search range. Further, in the description of the third and fourth embodiments, the search interval of the focus lens in the simple AF is as shown in the example of Fig. 7, and the preset 値 (fixed 値) is adopted in response to the zoom. However, it is also possible to create a search interval of the focus lens corresponding to the manual setting and the zoom ,, or to automatically set the photographic condition according to the photographic conditions obtained at the time of shooting or the comparison obtained from the image data. The search interval of the focus lens. Further, in the fourth embodiment, when the shutter button 58 is fully pressed, all the AF processing such as the focus lens stop processing, the photographing processing, the comparison data acquisition processing, and the comparison data comparison processing are simplified, but it can be simplified as if only Contrast data processing, to simplify the focus lens stop processing, photographic processing, comparison data acquisition processing and comparison data comparison processing, etc.; medium-to-one processing, or simply simplify comparison data processing, only simplify comparison data acquisition Processing and comparing data comparison processing, simplifying photographic processing, comparing data acquisition processing, and comparing data processing, combining several of the focus lens stop processing, photographic processing, contrast data acquisition processing, and comparison data comparison processing simplify. In the description of the respective embodiments, the digital camera is exemplified on the camera, but the term "camera" can be applied to a mobile phone having a camera or an information device having a photographing unit, in addition to a photographing device such as a digital camera. The present invention is not limited to the embodiments, and various modifications and embodiments can be made without departing from the scope of the invention. [Brief Description of the Drawings] Fig. 1 is a block diagram showing a configuration example of a digital camera according to the first and second embodiments of the present invention. Fig. 2 is a block diagram showing a configuration example of an AF control unit. Fig. 3 is a flow chart showing the details of the specific operation of the digital camera of the first embodiment. f Figure 4 shows the relationship between the position of the focus lens and the AF evaluation 値. Fig. 5 is a flowchart showing the essentials of the AF operation for switching between the low speed mode AF and the high speed mode AF. Fig. 6 is an explanatory view showing the first embodiment and the first to fifth modifications. Fig. 7 is a view showing a combination example of the AF processing of the low speed mode AF and the high speed mode AF. [Fig. 8] Fig. 8 is an explanatory view showing a focus position seek method according to a third modification of the first embodiment. Fig. 9 is a flowchart showing the outline of the AF' operation in the low speed mode AF of the third modification of the first embodiment. Fig. 10 is a flowchart showing the outline of the AF operation in the high speed mode AF of the third modification of the first embodiment. Fig. 1 is an explanatory view showing a movement range of a focus lens according to a fifth modification of the first embodiment. -60-201003278 Figure 12 is a flow chart showing the details of the specific operation of the digital camera of the second embodiment. Fig. 13A and Fig. 13B are diagrams showing the relationship between the position of the focus lens and the AF evaluation 情况 when the high speed mode AF is switched to the low speed mode AF in the second embodiment. Figs. 14 to 14C are views showing an appearance of an embodiment of a digital camera as a camera example according to the third and fourth embodiments of the present invention. Fig. 15 is a view showing an embodiment of an electronic circuit configuration of a digital camera shown in Figs. 14A to 14C. Fig. 16 is a flow chart showing an embodiment of the one-press determination and the photographing operation of the shutter button of the digital camera of the third embodiment. Figs. 17A and 17B are explanatory views showing a correspondence table for assigning the search interval of the zoom pupil and the focus lens to the corresponding simple AF. Fig. 18 is a flowchart showing an example of one-step determination and shooting operation of the shutter button of the digital camera according to the third embodiment in the case where the flash forced light mode (or the automatic flash mode) is selected. i Fig. 19 is a flow chart showing a modification of the shutter button of the digital camera of the third embodiment, and a modification of the shooting operation. Fig. 20 is a flow chart showing an embodiment of one shot operation of the shutter button of the digital camera of the fourth embodiment. Fig. 2 is a flowchart showing a modification of the single-shot imaging operation of the shutter button of the digital camera of the fourth embodiment. [Description of main component symbols] 1 Digital camera-61- 201003278 2 Lens optical system 3 Photographic component 撮影素子 4 A/D converter 5 Image processing unit 6 Release operation unit 6 - 1 Half-press detection unit 6-2 Full-press detection unit 7 Camera operation unit 8 Display unit 9 Memory group 10 Control unit 11 Lens drive motor unit 12 AF control unit 50 Digital camera 5 1 Flash light window 52 Photo lens 53 Mode disc 54 LCD monitor screen 55 Cursor key 56 SET button 57 Zoom lever 58 Shutter button 59 Power button 60 Flash illumination mode setting button 6 1-1 Zoom drive section -62- 201003278 61-2 AF drive section 62 Lens optical system 63 CCD 64 Timing generator (TG) 65 Vertical drive 66 Sample hold Circuit (S/H) 67 A/D converter 68 Color processing circuit 69 DMA controller 70 DRAM interface (I/F) 71 DRAM 72 Control unit 73 VRAM controller 74 VRAM 75 Digital image encoder 76 Display unit 77 JPEG circuit 78 Storage memory 80 Key input unit 8 1 Flash drive unit 12 1 Focus evaluation 値 Calculation unit 122 Latest evaluation 値 Storage unit 123 Evaluation Zhi Zhi peak detector storage unit 124 unit 125 controls the focus motor unit -63-

Claims (1)

201003278 VII. Patent application scope: 1. A photographic device, characterized in that it has: a photographic means for taking an image of the object to be photographed; a charging means for flashing, a charging of the flash for the flash device; a flashing means for flashing, using the flash charging means a charged flash unit for causing the flash to emit light; a shutter button; (" a first determining means for determining whether the shutter button has been operated; and a photographing control means for determining that the shutter button has been operated by the first determining means, The photographing apparatus of the first aspect of the invention, wherein the photographing control means includes the second judging means, in the use of the photographing means, whether or not the flashing of the flash is being performed by the flashing means. The first determining means determines that the shutter button has been operated, determines whether the flash charging means I is performing charging of the flash, and the stopping means determines that the charging of the flash is being performed by the second determining means, and stops using The flash 3. The charging device of the charging device according to the first aspect of the invention, wherein the photographing control means includes a method of determining that the shutter button has been operated by using the first determining means, and performing photographing processing by using the photographing means And the photographic apparatus of claim 1, wherein the photographic control means comprises: a second determining means, using the first judgment Means judging whether the shutter button has been operated, determining whether the flash is being charged by the flash charging means, and prohibiting means, performing the photographing processing by using the photographing means when determining that the charging of the flash is being performed by the second determining means 'And it is forbidden to use the flash light to illuminate the flash. -65-